WO2001036611A1 - Process for the production of a reversibly inactive acidified plasmin composition - Google Patents
Process for the production of a reversibly inactive acidified plasmin composition Download PDFInfo
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- WO2001036611A1 WO2001036611A1 PCT/US2000/042143 US0042143W WO0136611A1 WO 2001036611 A1 WO2001036611 A1 WO 2001036611A1 US 0042143 W US0042143 W US 0042143W WO 0136611 A1 WO0136611 A1 WO 0136611A1
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- C12N9/00—Enzymes; Proenzymes; Compositions thereof; Processes for preparing, activating, inhibiting, separating or purifying enzymes
- C12N9/14—Hydrolases (3)
- C12N9/48—Hydrolases (3) acting on peptide bonds (3.4)
- C12N9/50—Proteinases, e.g. Endopeptidases (3.4.21-3.4.25)
- C12N9/64—Proteinases, e.g. Endopeptidases (3.4.21-3.4.25) derived from animal tissue
- C12N9/6421—Proteinases, e.g. Endopeptidases (3.4.21-3.4.25) derived from animal tissue from mammals
- C12N9/6424—Serine endopeptidases (3.4.21)
- C12N9/6435—Plasmin (3.4.21.7), i.e. fibrinolysin
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- A61K38/43—Enzymes; Proenzymes; Derivatives thereof
- A61K38/46—Hydrolases (3)
- A61K38/48—Hydrolases (3) acting on peptide bonds (3.4)
- A61K38/482—Serine endopeptidases (3.4.21)
- A61K38/4833—Thrombin (3.4.21.5)
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- A61K38/46—Hydrolases (3)
- A61K38/48—Hydrolases (3) acting on peptide bonds (3.4)
- A61K38/482—Serine endopeptidases (3.4.21)
- A61K38/484—Plasmin (3.4.21.7)
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- C12N9/00—Enzymes; Proenzymes; Compositions thereof; Processes for preparing, activating, inhibiting, separating or purifying enzymes
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- C12N9/99—Enzyme inactivation by chemical treatment
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- C12Y304/00—Hydrolases acting on peptide bonds, i.e. peptidases (3.4)
- C12Y304/21—Serine endopeptidases (3.4.21)
- C12Y304/21007—Plasmin (3.4.21.7), i.e. fibrinolysin
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- A61K47/06—Organic compounds, e.g. natural or synthetic hydrocarbons, polyolefins, mineral oil, petrolatum or ozokerite
- A61K47/08—Organic compounds, e.g. natural or synthetic hydrocarbons, polyolefins, mineral oil, petrolatum or ozokerite containing oxygen, e.g. ethers, acetals, ketones, quinones, aldehydes, peroxides
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- A61K47/06—Organic compounds, e.g. natural or synthetic hydrocarbons, polyolefins, mineral oil, petrolatum or ozokerite
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- A61K47/18—Amines; Amides; Ureas; Quaternary ammonium compounds; Amino acids; Oligopeptides having up to five amino acids
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- A61K47/06—Organic compounds, e.g. natural or synthetic hydrocarbons, polyolefins, mineral oil, petrolatum or ozokerite
- A61K47/20—Organic compounds, e.g. natural or synthetic hydrocarbons, polyolefins, mineral oil, petrolatum or ozokerite containing sulfur, e.g. dimethyl sulfoxide [DMSO], docusate, sodium lauryl sulfate or aminosulfonic acids
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- A61K47/00—Medicinal preparations characterised by the non-active ingredients used, e.g. carriers or inert additives; Targeting or modifying agents chemically bound to the active ingredient
- A61K47/06—Organic compounds, e.g. natural or synthetic hydrocarbons, polyolefins, mineral oil, petrolatum or ozokerite
- A61K47/26—Carbohydrates, e.g. sugar alcohols, amino sugars, nucleic acids, mono-, di- or oligo-saccharides; Derivatives thereof, e.g. polysorbates, sorbitan fatty acid esters or glycyrrhizin
Definitions
- the present invention relates generally to a method of producing plasmin and more particularly to a method of purifying and isolating the plasmin under conditions
- Fibrin is a white insoluble fibrous protein formed from fibrinogen by the
- fibrin forms the structural scaffold of a
- thrombus which is a clot of blood formed within a blood vessel that remains attached
- Intravascular thrombosis is one of the most frequent pathological events accounting for greater than 50% of all deaths as well as a variety of other serious clinical problems. Most spontaneously developing vascular obstructions are due to the formation of intravascular blood clots, also known as thrombi. Small fragments of "
- a clot may detach from the body of the clot and travel through the circulatory system to lodge in distant organs and initiate further clot formation.
- Myocardial infarction, occlusive stroke, deep venous thrombosis (DVT) and peripheral arterial disease are well known consequences of thromboembolic phenomena.
- Plasminogen activators are currently the favored agents employed in
- thrombolytic therapy all of which convert plasminogen to plasmin and promote fibrinolysis by disrupting the fibrin matrix (M.A. Creager and V.J. Dzau, Vascular Diseases of the Extremities, ppgs. 1398 - 1406 in Harrison's Principles of Internal Medicine, 14 th ed., Fauci et al, editors, McGraw-Hill Co., New York, 1998; the
- plasminogen activators include a recombinant form of " tissue-type plasminogen activator (tPA), urokinase (UK) and streptokinase (SK), as well as a new generation of plasminogen activators selected for improved
- Val peptide bond The resulting two polypeptide chains of plasmin are held together by two interchain disulfide bridges.
- the light chain of 25kDa carries the
- the heavy chain (60kDa) consists of five triple-loop kringle structures with highly similar amino acid sequences. Some of these kringles contain so-called lysine-binding sites that are responsible for plasminogen and plasmin interaction with fibrin, alpha 2-antiplasmin or other proteins.
- SK and staphylokinase activate plasminogen indirectly by forming a complex with plasminogen, which subsequently behaves as a plasminogen activator
- thrombolytic drugs such as tissue plasminogen activator (tPA), streptokinase and urokinase
- tPA tissue plasminogen activator
- streptokinase streptokinase
- urokinase urokinase
- thrombolytic agents include myocardial infarction, occlusive stroke, deep venous thrombosis and
- the known plasminogen activators currently used suffer from several limitations that impact their overall usefulness in the elimination of a thrombus. For example, at best, the use of current thrombolytic therapy results in
- a different approach to avoid the problems associated with the systemic administration of a plasminogen activator to generate sufficient plasmin at the site of the thrombus, is to directly administer the plasmin itself to the patient.
- the concentration and time of treatment were selected to be sufficient to allow adequate active plasmin to attain a concentration at the site of an intravascular thrombus that is sufficient to lyse the thrombus or to reduce circulating fibrinogen levels.
- This method dilutes stock plasmin solutions stored at low pH with the
- the plasmin will be retained at a low pH until encountering the target fibrin.
- compositions of Yago et al. comprise plasmin and an additional component which may be 1) an oligopeptide comprising at least two amino acids, or 2) at least two amino acids, or 3) a single amino acid and a polyhydric alcohol.
- the compositions of Yago et al. are formulated at a neutral pH to maintain the enzymatic activity of plasmin.
- Plasmin as a potential thrombolytic agent has numerous technical difficulties. These difficulties include the challenge of preparing pure plasmin that is free of all
- plasminogem activator used to convert plasmin from its inactive precursor, plasminogen.
- Preparations of plasmin are typically extensively contaminated by plasminogen activator, streptokinase or urokinase and the thrombolytic activity was, therefore, attributed to the contaminating plasminogen activators rather than to plasmin itself.
- the contaminating plasminogen activators are typically extensively contaminated by plasminogen activator, streptokinase or urokinase and the thrombolytic activity.
- streptokinase containing plasmin preparations is that streptokinase can cause adverse immune reactions including fever and anaphylactic shock.
- plasmin as a serine protease with broad specificity, is highly prone to autodegradation and loss of activity. This circumstance provides severe challenges to the production of high-quality plasmin, to the stable formulation of this active
- the present invention provides for both a process for producing a reversibly inactive acidified plasmin by activating plasminogen and a process for producing a
- the purified plasminogen is isolated and stored in a low pH buffering capacity agent to provide a substantially stable formulation.
- the purified plasminogen is typically purified from a fraction obtained in the separation of immunoglobulin from Fraction II + III by affinity chromatography with an elution at a
- the reversibly inactive acidified plasmin may be used in the administration of a thrombolytic therapy.
- the method for purifying plasmin comprises cleaving a plasminogen in the presence of a plasminogen activator to yield an active plasmin and removing the plasminogen activator from the active plasmin to form a plasmin solution.
- pH-buffering capacity agent can then be added to the final plasmin solution to form a
- the final plasmin solution may be buffered to a pH of between about 2.5 to about 4.
- the plasminogen activator can be removed from the active plasmin by binding
- active plasmin-specific absorbent material can comprise
- a further method of purifying plasmin comprises cleaving plasminogen to
- the bound plasmin can be eluted with a substantially neutral amino acid to form a final plasmin solution which is substantially free of degraded plasmin.
- the substantially neutral amino acid can comprise an omega-amino acid and is typically filtered out of the final plasmin.
- the final plasmin may also be buffered with a low pH-buffering capacity agent.
- the process for the purification of plasminogen from a plasma source includes
- the purified plasminogen is then collected as an eluate. Additionally, the process may include methods for the purification of micro- or mini-plasmin(ogen) or other truncated or modified forms of
- Figure 1 graphically depicts the effect of on plasminogen recovery and lipid
- Figure 2 graphically depicts nephelometry data for CCI extract and the subsequent filtrates I and II;
- Figure 3 depicts a gel of coomassie stained reduced SDS-PAGE (10-20% Tris-
- Figure 4 depicts a coomassie stained reduced SDS-PAGE (10-20% Tris-
- Figure 5 graphically depicts a lysineSEPHAROSE 4B chromatogram for the
- Figure 6 depicts a coomassie stained reduced SDS-PAGE (10-20% Tris-
- FIG. 7 graphically represents streptokinase activation solution stability
- Figure 8 graphically represents benzamidine SEPHAROSE 6B chromatogram
- Figure 9 depicts a coomassie stained reduced SDS-PAGE (10-20% Tris- Glycine) of benzamidine SEPHAROSE 6B purified Pm;
- Figure 10 graphically depicts the hydrophobic interaction chromatography
- Figure 11 depicts a non-reduced SDS PAGE and anti-SK Western Blot.
- the present invention comprises both a method for producing a reversibly inactive acidified plasmin in combination with a low pH-buffering capacity agent and
- the inactive acidified plasmin solution may also include a stabiliser in addition to being inactivated in buffered solution.
- the process for purifying plasminogen provides for both inactivation and removal of pathogens and the elution of the plasminogen at a low pH.
- the inactive acidified plasmin preparation can be used in the administration
- the present invention includes both a process for the purification of
- plasminogen and plasmin and concurrently, methods for the inactivation and removal of viral and Transmissible Spongiform Encephalopathies (TSE) contaminants during these processes.
- the starting material, plasminogen can be purified from Cohn
- the process may be performed on any plasma source, recombinant source, cell culture source or transgenic source.
- plasma from a waste fraction derived from the purification of immunoglobulin from a chromatographic process can be used as described in commonly owned U.S. Patent Application Serial No. 09/448,771, filed November 24, 1999, which is incorporated by reference herein. Plasminogen was extracted from this waste fraction (referred to herein as the
- CCI caprylate cake I
- a pH of about 3.5 to about 10.5 using a variety of buffers capable of providing a pH in this range, including citrate, acetate, tris, imidazole, histadine, HEPES and/or phosphate buffers.
- the extraction can occur at temperatures from
- the ionic strength can be varied by the addition of about 0.2 Molar sodium chloride without deleterious effect on the extraction of plasminogen.
- ammonium sulfate The PEG or ammonium sulfate precipitate was removed by depth filtration and the resulting solution placed on a lysine affinity resin column.
- solubility of plasminogen may be enhanced by the addition of
- omega-amino acids lysine, arginine, tranexamic acid, or epsilon amino caproic acid, or combinations or analogues thereof
- Solubility enhancement may be accomplished with from about 0.02 M to about 1 M
- omega-amino acid preferably about 0.1 M lysine appears to be sufficient. If added, the lysine is preferably removed after the PEG or ammonium sulfate precipitation and depth filtration by diafiltration and the resulting solution placed on a lysine affinity
- lysine affinity resin is used generally for affinity resins containing lysine or its derivatives or epsilon caproic acids as the ligand.
- the column can be eluted with a low pH solution of approximately 1 to 4.
- the protein obtained after elution from the affinity column is generally at least
- the purified plasminogen is then stored at low pH in the presence
- plasmin has greater than 6 logs of TSE infectivity removal for added safety.
- the plasminogen in solution was then activated to plasmin by the addition of a
- plasminogen activator which may be accomplished in a number of ways including
- streptokinase but not limited to streptokinase, urokinase, or the use of urokinase immobilized on resin and use of streptokinase immobilized on resin.
- the preferred plasminogen activator is soluble streptokinase.
- stabilizers such as glycerol, and
- omega-amino acids such as lysine, poly lysine, arginine, epsilon amino caproic acid and tranexamic acid were shown to enhance the yield of plasmin.
- Plasmin was purified from unactivated plasminogen by affinity chromatography on resin with benzamidine as the ligand and elution with a neutral omega-amino acid solution or low pH solution. This step can remove essentially all
- the plasmin is formulated as a sterile protein solution by ultrafiltration and diafiltration and 0.22 ⁇ m filtration.
- the present method additionally includes the steps of activating plasminogen to plasmin using a plasminogen activator and then capturing the formed active plasmin on an active plasmin specific absorbent material.
- the bound plasmin is then eluted with a low pH buffer.
- the eluted plasmin is buffered with a low pH-buffering
- the eluted plasmin is buffered to a pH of between about 2.5 to about 4.
- the low buffering capacity of the acidic buffer aids in enabling the reversibly inactivated acidified plasmin to be brought up to physiological pH quickly and then activated when administered as a thrombolytic agent.
- the buffer is added
- Plasminogen can be cleaved to plasmin by using a catalytic concentration of
- Plasmin the principle fibrinolytic enzyme in mammals, is a serine protease with trypsin-like specificity that is derived from the inactive zymogen precursor plasminogen circulating in plasma. Plasminogen itself is a 790 amino acid polypeptide having an N-terminus glutamate
- Plasminogen activators such as soluble streptokinase, tissue plasminogen activator (tPA) or urokinase will cleave the single-chain plasminogen molecule to produce active plasmin at the Arg560-Val561 peptide bond. The resulting two
- polypeptide chains of plasmin are held together by two interchain disulfide bridges.
- the light chain of 25kDa carries the catalytic center and is homologous to trypsin and other serine proteases.
- the heavy chain (60kDa) consists of five triple-loop kringle structures with highly similar amino acid sequences. Some of these kringles contain so-called lysine-binding sites that are responsible for plasminogen and plasmin
- the activation of plasminogen can occur at about 4°C to about 37°C and typically takes between about 2 to 24 hours.
- the plasminogen can be cleaved in the presence of stabilisers such as omega-amino acids and glycerol.
- the omega-amino acids can include lysine, epsilon amino caproic acid, tranexamic acid, poly lysine,
- the plasmin solution can be filtered and further stabilised for several days
- the active plasmin formed from the cleaving of the plasminogen can then be bound to an active plasmin specific absorbent to substantially remove the plasminogen activator. Since the protein of interest is an active serine protease with trypsin-like specificity, benzamidine may be used as an active plasmin specific
- benzamidine can be immobilized in a solid support medium.
- the solid support medium can be a resin or SEPHAROSE. Additionally, hydrophobic interaction may be used to further remove the plasminogen activator.
- the cleaved plasminogen is typically contained in a solution of amino acids, sodium chloride and glycerol, which allows for stability of the solution for several days at neutral pH before it is applied to a benzamidine- SEPHAROSE column equilibrated with about 0.05 M Tris, pH 8.5, O.5 M NaCl.
- the column is typically run at 4°C.
- the front portion of the non-bound peak contains high-molecular weight impurities, with the rest of the non-bound peak being
- the bound plasmin can then be eluted with an acid buffer or with a
- SEPHAROSE can be eluted with an acidic buffer such as glycine buffer.
- substantially neutral pH omega-amino acid is used to elute the bound plasmin the final eluted plasmin solution can be substantially free of degraded plasmin.
- the substantially neutral pH amino acid has a pH of value of between about 6.5 to
- neutral omega-amino acids examples include lysine, epsilon aminc* caproic acid, tranexamic acid, poly lysine, arginine, and analogues and combinations
- the eluted plasmin can be buffered with a low pH-buffering capacity agent.
- the low pH-buffering capacity agent typically comprises a buffer of either an amino acid, a derivative of at least one amino acid, an ohgopeptide which includes at least one amino acid, or a combination of the above. Additionally the low pH-buffering capacity agent can comprise a buffer selected from acetic acid, citric acid, hydrochloric acid, carboxcylic acid, lactic acid, malic acid, tartaric acid, benzoic acid,
- the buffer can be present in the reversibly inactive acidified plasmin at a concentration at which the pH of the acidified plasmin is raised to neutral pH by adding no more than about 4 to 5 times
- the concentration of plasmin in the buffered solution can range from about
- concentration of the buffer can range from about InM to about 50mM. Of course these ranges may be broadened
- the amount of buffer added is typically that which will bring the reversibly inactive acidified plasmin solution to
- the reversibly inactive acidified plasmin solution may be further stabilized by
- stabilizing agent such as a polyhydric alcohol, pharmaceutically acceptable carbohydrates, salts, glucosamine, thiamine, niacinamide, or combinations thereof.
- the stabilizing salts can be selected from the group consisting of sodium
- sugar alcohols may also be added, such as glucose, maltose, mannitol, sorbitol, sucrose, lactose, trehalose, and combinations thereof.
- acidified plasmin solution include a range from about 0.2%> w/v to about 20% w/v. Ranges for a salt, glucosamine, thiamine, niacinamide and their combinations can
- the plasmin being formulated in a buffered acidified water has been found to
- plasmin is stable for at least nine months. Even at room temperature, plasmin is stable for at least two months. Long-term stability at room temperature is important because it would make this formulation compatible with long regimens of thrombolytic administration. For example, 36 hours administration of thrombolytic s
- tissue plasminogen activator or urokinase is common in treatment of
- peripheral arterial occlusions peripheral arterial occlusions.
- PBS of plasma it adopts the neutral pH instantly and the precipitation that usually accompanies the slow passage through the iso-pl point, does not occur.
- a feature of the active plasmin as used in the present invention is the
- compositions made in accordance with the claimed invention are disclosed in the application entitled “Reversibly Inactivated Acidified Plasmin”, attorney docket number B185 1030 and commonly assigned and
- Caprylate cake I is a fraction resulting from a pH 5 caprylate precipitation of resuspended Fraction II+III in the IGIV-C process.
- Plasminogen (Pmg) is extracted from the CCI by solubilizing at a cake:buffer ratio of about 1:10 for 2 to 3 hours at 4°C with mixing. While several extraction solutions were investigated, the current method was performed with 100 mM Tris pH 10.5 to
- Table 1 depicts the extraction solutions investigated along with their final extract pH and Pmg potency.
- Table 2 shows the Pmg yield, based on nephelometry, from Clarified Plasma Pool through Fraction II+III and CCI Extract.
- lysine derivatives 100 mM L-lysine, 50 mM epsilon amino caproic acid (EACA)
- EACA epsilon amino caproic acid
- Figure 1 shows the lipid content, determined by cholesterol and triglycerides concentration, is reduced by 60 - 70% following PEG precipitation and filtration (CCI
- the CCI Filtrate I is diluted 1 : 1 with phosphate buffered saline pH 7.5 and held at 20°C for 1 to 2 hours as precipitation often continues following filtration.
- the CCI Filtrate I is filtered through 0.5 ⁇ m and 0.22 ⁇ m filters to remove any additional
- CCI Filtrate II Nephelometry data for CCI Extract and CCI Filtrates I and II are illustrated in Figure 2. Note that fibrinogen and apolipoprotein A-l concentrations are reduced following PEG precipitation.
- the CCI Filtrate II is diafiltered by tangential flow filtration (TFF) against phosphate buffered saline pH 7.5 to reduce the L-lysine concentration such that it will
- Constant volume diafiltration was performed by tangential flow filtration
- lysine affinity chromatography is to purify Pmg, which represents from about 3 to 5% of the total protein in the diafiltered CCI Filtrate II.
- the DF CCI Filtrate II was applied to a Lysine-SEPHAROSE 4B (Amersharn Pharmacia #17-0690-01) column equilibrated with 0.01 M NaH 2 PO 4 , 0.15 M NaCl pH 7.5, at 3.5-4.0 A 28 o/mL resin. Unbound proteins were washed through the column with the equilibration buffer and the resin was then washed with 0.01 M NaH 2 P ⁇ 4 .,
- the resin was cleaned sequentially with 0.1 N NaOH and 2.0 M NaCl, 0.1% Triton
- Table 3 shows Pmg step yield by nephelometry and purity by reduced SDS PAGE.
- Pmg lysine affinity eluate (Pmg) was tested.
- Pmg activity Caprylate Viral Inactivation.
- caprylate inactivation is very much pH dependent and more efficacious under acidic pH conditions, it was logical to study virus inactivation by caprylate at the low pH lysine affinity chromatography elution step.
- BVDV BVDV
- Caprylate Cake I Extract resulted in greater than 2 logio of TSE removal.
- the lysine affinity column eluate pH 3.4 is concentrated by TFF to 2 mg/m_L through a 30 kD molecular weight cutoff membrane.
- the Pmg solution temperature is ramped down to 4°C and a Pmg stabilizer, EACA, is added to a final concentration of 20 mM to protect Pmg against damage during pH adjustment from 3.4 to 7.5. Without the addition of EACA, a 67 kDa species appears following the pH swing.
- EACA a 67 kDa species appears following the pH swing.
- the presence of EACA during pH adjustment results in decreased Pmg degradation as
- glycerol pH 7.5 pH 7.5. These conditions have been optimized for minimizing Pm autodegradation.
- SK is added to this solution at a 100:1 Pmg:SK molar ratio.
- the SIC reaction mixture is mixed at 4°C for 16 hours to allow activation of Pmg to Pm.
- benzamidine affinity purification is the separation of unactivated Pmg and impurities, including Pm degradation products, from active Pm.
- the stable SK activation solution pH adjusted to 8.5 in 0.05 M glycine, 0.015 M L-
- lysine 0.25 M EACA, 0.5 M NaCl, 10 %> glycerol, is applied to a Benzamidine- SEPHAROSE 6B (Amersham Pharmacia #17-0568-01) column equilibrated with 50
- FIG 8 shows a typical column format, EACA elution profile.
- the batch elution profile consists only of the unbound protein peak as the resin is then removed from the column for Pm elution. The Pm captured and eluted
- Removal of the Pmg Activator SK The purpose of these steps is to remove the Pmg activator SK such that the only remaining fibrin clot dissolution activity is that of Pm.
- step removes >99% of the SK from the Pm as is illustrated in Table 6.
- the hydrophobic interaction step using Octyl SEPHAROSE 4 FF acts as a polishing step to remove essentially any remaining SK.
- the final sterile Pm product has no detectable SK by ELISA.
- the 1 M EAC eluate pH 7.5, from the benzamidine affinity column, is adjusted to pH 3.4 and
- Figure 9 is an Octyl-SEPHAROSE 4 FF chromatogram from a proof of principle experiment. Pmg and SK were mixed at a
- FIG. 10 illustrates the removal of SK from the Pm by SDS PAGE and anti-SK western blot.
- the SIC standard (panels A and B; lane 1) migrates true to its molecular weight of 47 kDa.
- the SK is modified and migrates faster and as several species. There is no detectable SK in the unbound protein fraction, which contains the bulk of
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Abstract
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Priority Applications (10)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
EP00991956A EP1232254B1 (en) | 1999-11-13 | 2000-11-13 | Process for the production of a reversibly inactive acidified plasmin composition |
JP2001538490A JP5025868B2 (en) | 1999-11-13 | 2000-11-13 | Method for the preparation of reversibly inactive acidified plasmin compositions |
DK00991956T DK1232254T3 (en) | 1999-11-13 | 2000-11-13 | Process for preparing a reversibly inactive acidified plasma component |
CA2389487A CA2389487C (en) | 1999-11-13 | 2000-11-13 | Process for the production of a reversibly inactive acidified plasmin composition |
DE60040345T DE60040345D1 (en) | 1999-11-13 | 2000-11-13 | PROCESS FOR PREPARING A REVERSIBLE INACTIVE, ACIDIFIED PLASMINE COMPOSITION |
AU36436/01A AU784800B2 (en) | 1999-11-13 | 2000-11-13 | Process for the production of a reversibly inactive acidified plasmin composition |
US10/143,156 US20020192794A1 (en) | 1999-11-13 | 2002-05-10 | Process for the production of a reversibly inactive acidified plasmin composition |
US10/692,105 US7544500B2 (en) | 1999-11-13 | 2003-10-23 | Process for the production of a reversibly inactive acidified plasmin composition |
US12/399,438 US8268782B2 (en) | 1999-11-13 | 2009-03-06 | Composition and method for preparing plasminogen |
US13/761,676 US20130164815A1 (en) | 1999-11-13 | 2013-02-07 | Process for the production of a reversibly inactive acidified plasmin composition |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
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US09/438,331 | 1999-11-13 | ||
US09/438,331 US6355243B1 (en) | 1999-11-13 | 1999-11-13 | Method of thrombolysis by local delivery of active plasmin |
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US09/435,331 Continuation-In-Part US6093485A (en) | 1998-05-28 | 1999-11-05 | Fiber glass mat for laminating to foam, foam laminate precursor, foam laminate, and methods of making the mat and the foam laminate |
US09/438,331 Continuation-In-Part US6355243B1 (en) | 1999-11-13 | 1999-11-13 | Method of thrombolysis by local delivery of active plasmin |
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US10/143,156 Continuation US20020192794A1 (en) | 1999-11-13 | 2002-05-10 | Process for the production of a reversibly inactive acidified plasmin composition |
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WO2001036611A1 true WO2001036611A1 (en) | 2001-05-25 |
WO2001036611A8 WO2001036611A8 (en) | 2001-11-22 |
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PCT/US2000/031090 WO2001036608A1 (en) | 1999-11-13 | 2000-11-13 | Reversibly inactivated acidified plasmin |
PCT/US2000/031115 WO2001036609A1 (en) | 1999-11-13 | 2000-11-13 | Method of thrombolysis by local delivery of reversibly inactivated acidified plasmin |
PCT/US2000/042143 WO2001036611A1 (en) | 1999-11-13 | 2000-11-13 | Process for the production of a reversibly inactive acidified plasmin composition |
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PCT/US2000/031090 WO2001036608A1 (en) | 1999-11-13 | 2000-11-13 | Reversibly inactivated acidified plasmin |
PCT/US2000/031115 WO2001036609A1 (en) | 1999-11-13 | 2000-11-13 | Method of thrombolysis by local delivery of reversibly inactivated acidified plasmin |
Country Status (16)
Country | Link |
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US (6) | US6355243B1 (en) |
EP (4) | EP1956082A1 (en) |
JP (3) | JP5025868B2 (en) |
AT (2) | ATE409222T1 (en) |
AU (3) | AU784800B2 (en) |
BE (1) | BE2013C050I2 (en) |
CA (3) | CA2389487C (en) |
CY (3) | CY1108639T1 (en) |
DE (3) | DE60042214D1 (en) |
DK (2) | DK1232252T3 (en) |
ES (3) | ES2313912T3 (en) |
FR (1) | FR13C0041I2 (en) |
LU (1) | LU92255I2 (en) |
NL (1) | NL300603I2 (en) |
PT (2) | PT1232254E (en) |
WO (3) | WO2001036608A1 (en) |
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- 2000-11-13 WO PCT/US2000/031115 patent/WO2001036609A1/en active IP Right Grant
- 2000-11-13 DE DE60036017.2T patent/DE60036017T3/en not_active Expired - Lifetime
- 2000-11-13 EP EP00990910A patent/EP1232252B1/en not_active Expired - Lifetime
- 2000-11-13 DK DK00990910T patent/DK1232252T3/en active
- 2000-11-13 WO PCT/US2000/042143 patent/WO2001036611A1/en active Application Filing
- 2000-11-13 DK DK00991956T patent/DK1232254T3/en active
-
2002
- 2002-05-10 US US10/143,156 patent/US20020192794A1/en not_active Abandoned
- 2002-05-10 US US10/143,112 patent/US20030012778A1/en not_active Abandoned
-
2008
- 2008-08-25 US US12/197,617 patent/US7871608B2/en not_active Expired - Fee Related
- 2008-12-10 CY CY20081101434T patent/CY1108639T1/en unknown
-
2009
- 2009-07-07 CY CY20091100721T patent/CY1110516T1/en unknown
-
2013
- 2013-02-07 US US13/761,676 patent/US20130164815A1/en not_active Abandoned
- 2013-02-07 US US13/761,684 patent/US9879246B2/en not_active Expired - Fee Related
- 2013-07-11 CY CY2013030C patent/CY2013030I2/en unknown
- 2013-07-12 NL NL300603C patent/NL300603I2/nl unknown
- 2013-07-12 FR FR13C0041C patent/FR13C0041I2/en active Active
- 2013-07-17 LU LU92255C patent/LU92255I2/en unknown
- 2013-07-18 BE BE2013C050C patent/BE2013C050I2/fr unknown
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WO2007078761A2 (en) * | 2005-12-13 | 2007-07-12 | Bausch & Lomb Incorporated | Method for prolonging activity of autodegradable enzymes and compositions thereof |
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US9616015B2 (en) | 2012-05-25 | 2017-04-11 | Diamedica Inc. | Formulations of human tissue kallikrein-1 for parenteral delivery and related methods |
US9839678B2 (en) | 2012-06-04 | 2017-12-12 | Diamedica Inc. | Human tissue kallikrein 1 glycosylation isoforms |
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